Abstract [en]

The relative composition of the two major monocytic subsets CD14+CD16− and CD14+CD16+ is altered in some allergic diseases. These two subsets display different patterns of Toll-like receptor levels, which could have implications for activation of innate immunity leading to reduced immunoglobulin E-specific adaptive immune responses. This study aimed to investigate if allergic status at the age of 5 years is linked to differences in monocytic subset composition and their Toll-like receptor levels, and further, to determine if Toll-like receptor regulation and cytokine production upon microbial stimuli is influenced by the allergic phenotype. Peripheral blood mononuclear cells from 5-year-old allergic and non-allergic children were stimulated in vitro with lipopolysaccharide and peptidoglycan. Cells were analysed with flow cytometry for expression of CD14, Toll-like receptors 2 and 4 and p38-mitogen-activated protein kinase (MAPK). The release of cytokines and chemokines [tumour necrosis factor, interleukin (IL)-1β, IL-6, IL-8, IL-10, IL-12p70] into culture supernatants was measured with cytometric bead array. For unstimulated cells there were no differences in frequency of the monocytic subsets or their Toll-like receptor levels between allergic and non-allergic children. However, monocytes from allergic children had a significantly lower up-regulation of Toll-like receptor 2 upon peptidoglycan stimulation. Further, monocytes from allergic children had a higher spontaneous production of IL-6, but there were no differences between the two groups regarding p38-MAPK activity or cytokine and chemokine production upon stimulation. The allergic subjects in this study have a monocytic population that seems to display a hyporesponsive state as implicated by impaired regulation of Toll-like receptor 2 upon peptidoglycan stimulation.

Amoudruz, Petra

Stockholm University, Faculty of Science, The Wenner-Gren Institute .

2008 (English)Doctoral thesis, comprehensive summary (Other academic)

Abstract [en]

The mechanistic factors responsible for the increase in allergic diseases are still not fully understood, but a reduced microbial stimulation seems to be one of the key issues. Research is now aiming at investigating the relationship between the innate immune system, involving the toll-like receptors, and allergy development. Further, the maternal influence on the child, possibly through in utero effects, but also through the breast milk, has shown to be of great importance. This thesis aimed at understanding how the maternal immune system is influenced by early exposures and allergic disease, but also to investigate the consequences of the maternal phenotype on the innate immune system of the developing child.

The Th1/Th2 cytokine pattern in allergic diseases has been extensively studied. Here we were interested in comparing the innate cytokines in allergic and non-allergic women, and to see if the allergic status was influencing the effect of pregnancy differently. We demonstrate that IL-1β, IL-6, IL-10 and IL-12 production in cells from adult women are not influenced by allergic status, neither during pregnancy nor 2 years after. However, pregnancy had an apparent effect on cytokine levels, regardless of allergic status. Also, total IgE levels in allergic women were significantly lower 2 years after pregnancy in comparison with the levels during pregnancy, pointing to the fact that pregnancy indeed has an immunomodulatory role.

We further wanted to investigate the immune system of mothers who had migrated to Sweden in comparison with indigenous mothers. The reason for our interest here was that children born from immigrated mothers have shown to have an increased risk of developing diseases such as allergy and Crohn’s disease. The results showed that immigrants from a developing country had significantly higher levels of breast milk IL-6, IL-8 and TGF-β1. Further, regardless of maternal country of birth, a larger number of previous pregnancies was associated with down-regulation of several substances, statistically significant for soluble CD14 and IL-8. The results suggest that maternal country of birth may indeed influence adult immune characteristics, potentially relevant to disease risk in offspring.

The influence of allergic status of the mother on the expression of CD14, TLR2 and TLR4 was further investigated in monocytes from mothers and their newborn babies upon microbial stimulation. We could not find any differences in monocytic TLR levels between the groups. No significant differences regarding cytokine levels between allergic and non-allergic mothers in response to stimuli were found either. However, the cytokine and chemokine release triggered by TLR2 stimulation in CB revealed that CBMC from children with maternal allergic disease released significantly less IL-6, and a trend towards less IL-8.

As we could not find differences in TLR levels attributed to maternal allergy, but an impaired IL-6 response, we turned our focus on an intracellular event taking place after TLR ligation. The results confirmed our results of decreased IL-6 levels in CB from children to allergic mothers. At 2 years of age, the children of allergic mothers still displayed a diminished IL-6 response. Additionally, they also had a decreased activity of p38 MAPK. p38 has an important role in driving Th1 responses, suggesting that the p38 pathway could be one of the responsible mechanisms behind the impaired responses correlated to allergic heredity found in CB as well as at 2 years of age.

Infancy is a crucial time period for the developing immune system. Further, the relative composition of the two major monocytic subsets CD14++CD16- and CD14+CD16+ is altered in some allergic diseases. TLR levels are different in the two subsets, proposing a possible link to the reduced responding capacity of monocytes from children with allergic heredity. We followed up our earlier studies of children at birth and at 2 years of age by looking at 5 year old children. There were no differences regarding monocytic subsets, nor in TLR levels in unstimulated cells. However, when stimulating the cells with PGN, both monocytic subsets in allergic subjects were less capable of upregulating TLR2 compared to the age-matched controls.

Taken together, the work in this thesis suggests that the maternal immune system is affected by the process of pregnancy and childhood exposures. It further suggests that maternal allergy affects the young child, in terms of impaired responses to microbial stimuli, which later in infancy correlates with allergic disease in the child. These impaired innate responses could lead to a diminished Th1 response, or alternatively to a deficiency in regulatory mechanisms, and thereby cause allergic disease.

Saghafian Hedengren, Shanie

Stockholm University, Faculty of Science, The Wenner-Gren Institute .

2009 (English)Doctoral thesis, comprehensive summary (Other academic)

Abstract [en]

Allergic diseases are influenced by genetics and the environment. Maternal allergy appears to confer a higher risk for allergic sensitization than paternal allergy, suggesting an in utero influence. A decrease in particular infections or a lower exposure to microbial components during infancy is suggested to contribute to the high allergy prevalence in affluent societies. Toll-like receptors (TLR) 2 and 4 recognize peptidoglycan (PGN) and LPS respectively, are expressed on e.g. monocytes, and have been implicated in modulating the risk of IgE-sensitization. This thesis aimed to study the influence of maternal allergy and early microbial exposure on monocyte function and allergic sensitization during childhood.

Blood samples from children participating in a prospective allergy cohort were used. Two-year old infants with allergic mothers had lower IL-6 production and reduced activation of the TLR-signalling intermediate p38-MAPK in response to PGN than children with non-allergic mothers. In 5-year old children, allergic disease and not maternal allergy influenced monocytic TLR2-regulation. Five-year olds who were seropositive for Epstein-Barr virus (EBV) at 2-years of age had a lower risk of persistent IgE-sensitization while EBV contraction after 2-years of age related to a higher risk of IgE-sensitization. Upon in vitro stimulation, NK cells from EBV+ 2-year olds produced lower IFN-g levels. EBV+ 2-year olds had also lower systemic IFN-g. In comparison to CD14++CD16- monocytes, CD14+CD16+ cells induced NK-cell IFN-g more potently in vitro, and EBV+ infants tended to have lower proportions of these CD14+CD16+ monocytes.

This thesis highlights the importance of early-life microbial (EBV) exposure for a proper allergy-protective immunity. Also, maternal allergic heredity appears to influence monocytic microbial responses in early infancy. All these aspects relate to altered monocyte functionality, which suggest that they could have a role in allergic sensitization.